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Features and Advantages:
1. High-efficiency medium-pressure boosting: Designed specifically for low-pressure nitrogen sources, it stably boosts the inlet pressure from 2.5 bar to 50 bar, meeting the needs of medium-to-high pressure applications.
2. Energy-saving and economical: Directly utilizes the existing low-pressure nitrogen network, reducing the use of high-energy-consuming air compressors and lowering system energy consumption.
3. Pure and pollution-free: Adopts an oil-free design and sealing technology to ensure nitrogen purity and prevent oil contamination or external pollution.
4. Compact structure: Small size and high integration make it easy to install and integrate into existing pipelines or mobile equipment.
5. Simple maintenance: Fewer main moving parts, high durability, and simple daily maintenance.
Technical Parameters
| odel | Inlet P (Mpa) | Outlet P (Mpa) | Capacity(m3/h) | Motor Power(Kw) | Dimension L*W*H(mm) | Compression | Inlet size | Outlet Size | Weight (kg) |
| RVWN-20/5-25 | 0.5 | 2.5 | 20 | 3 | 1250x500x900 | 2 | Rc1/2 | Rc1/2 | 210 |
| RVWN-30/5-25 | 0.5 | 2.5 | 30 | 4 | 1250x550x900 | 2 | Rc1 | Rc1 | 230 |
| RVWN-40/5-25 | 0.5 | 2.5 | 40 | 5.5 | 1250x600x900 | 2 | Rc1 | Rc1 | 250 |
| RVWN-50/5-25 | 0.5 | 2.5 | 50 | 7.5 | 1250x600x900 | 2 | Rc1 | Rc1 | 270 |
| RVWN-60/5-25 | 0.5 | 2.5 | 60 | 7.5 | 1250x600x900 | 2 | Rc1 | Rc1 | 270 |
| RVWN-70/5-25 | 0.5 | 2.5 | 70 | 7.5 | 1250x600x900 | 2 | Rc1 | Rc1 | 270 |
| RVWN-80/5-25 | 0.5 | 2.5 | 80 | 11 | 1250x700x900 | 2 | Rc1 | Rc1 | 300 |
Main Application Industries
Industrial Pneumatic Systems: Providing power nitrogen for high-pressure pneumatic tools, fixtures, and production lines.
Chemical and Pharmaceutical Industries: Used for pipeline purging, material conveying, reactor pressurization, and inert gas protection.
Energy and Power: Providing instrument control gas sources, transformer nitrogen protection, and natural gas pipeline testing.
Automotive Manufacturing: Tire inflation with nitrogen, parts testing, and paint spraying gas source.
Food and Beverage: Beverage filling pressurization, packaging equipment gas source, and container inerting.
FAQ
1. What are the main differences between this and a regular air compressor?
This is a specialized booster compressor; it takes existing low-pressure nitrogen gas as input and outputs medium-to-high pressure nitrogen gas. A regular air compressor draws in ambient air for compression.
2. Does the inlet pressure have to be exactly 2.5 bar?
No, there is a certain range of flexibility (e.g., 1.5-4 bar), but the design's optimal efficiency point is 2.5 bar. If the pressure is outside this range, the compatibility of the machine model needs to be confirmed.
3. Will the purity of the output nitrogen gas change?
It usually maintains the input purity. The equipment itself does not generate impurities, but it is necessary to ensure that the piping and sealing materials are compatible (such as stainless steel) to prevent contamination.
4. Does it require a special installation environment?
It requires a clean, well-ventilated environment, avoiding high temperatures and dusty conditions. The connecting pipes must be pressure-resistant and properly secured, and a fine filter should be installed at the inlet.
5. What should be paid attention to in daily maintenance?
Regularly check the inlet filter, drain condensed water, listen for abnormal noises, and replace seals according to the frequency of use. A comprehensive inspection by a professional is recommended annually.
Features and Advantages:
1. High-efficiency medium-pressure boosting: Designed specifically for low-pressure nitrogen sources, it stably boosts the inlet pressure from 2.5 bar to 50 bar, meeting the needs of medium-to-high pressure applications.
2. Energy-saving and economical: Directly utilizes the existing low-pressure nitrogen network, reducing the use of high-energy-consuming air compressors and lowering system energy consumption.
3. Pure and pollution-free: Adopts an oil-free design and sealing technology to ensure nitrogen purity and prevent oil contamination or external pollution.
4. Compact structure: Small size and high integration make it easy to install and integrate into existing pipelines or mobile equipment.
5. Simple maintenance: Fewer main moving parts, high durability, and simple daily maintenance.
Technical Parameters
| odel | Inlet P (Mpa) | Outlet P (Mpa) | Capacity(m3/h) | Motor Power(Kw) | Dimension L*W*H(mm) | Compression | Inlet size | Outlet Size | Weight (kg) |
| RVWN-20/5-25 | 0.5 | 2.5 | 20 | 3 | 1250x500x900 | 2 | Rc1/2 | Rc1/2 | 210 |
| RVWN-30/5-25 | 0.5 | 2.5 | 30 | 4 | 1250x550x900 | 2 | Rc1 | Rc1 | 230 |
| RVWN-40/5-25 | 0.5 | 2.5 | 40 | 5.5 | 1250x600x900 | 2 | Rc1 | Rc1 | 250 |
| RVWN-50/5-25 | 0.5 | 2.5 | 50 | 7.5 | 1250x600x900 | 2 | Rc1 | Rc1 | 270 |
| RVWN-60/5-25 | 0.5 | 2.5 | 60 | 7.5 | 1250x600x900 | 2 | Rc1 | Rc1 | 270 |
| RVWN-70/5-25 | 0.5 | 2.5 | 70 | 7.5 | 1250x600x900 | 2 | Rc1 | Rc1 | 270 |
| RVWN-80/5-25 | 0.5 | 2.5 | 80 | 11 | 1250x700x900 | 2 | Rc1 | Rc1 | 300 |
Main Application Industries
Industrial Pneumatic Systems: Providing power nitrogen for high-pressure pneumatic tools, fixtures, and production lines.
Chemical and Pharmaceutical Industries: Used for pipeline purging, material conveying, reactor pressurization, and inert gas protection.
Energy and Power: Providing instrument control gas sources, transformer nitrogen protection, and natural gas pipeline testing.
Automotive Manufacturing: Tire inflation with nitrogen, parts testing, and paint spraying gas source.
Food and Beverage: Beverage filling pressurization, packaging equipment gas source, and container inerting.
FAQ
1. What are the main differences between this and a regular air compressor?
This is a specialized booster compressor; it takes existing low-pressure nitrogen gas as input and outputs medium-to-high pressure nitrogen gas. A regular air compressor draws in ambient air for compression.
2. Does the inlet pressure have to be exactly 2.5 bar?
No, there is a certain range of flexibility (e.g., 1.5-4 bar), but the design's optimal efficiency point is 2.5 bar. If the pressure is outside this range, the compatibility of the machine model needs to be confirmed.
3. Will the purity of the output nitrogen gas change?
It usually maintains the input purity. The equipment itself does not generate impurities, but it is necessary to ensure that the piping and sealing materials are compatible (such as stainless steel) to prevent contamination.
4. Does it require a special installation environment?
It requires a clean, well-ventilated environment, avoiding high temperatures and dusty conditions. The connecting pipes must be pressure-resistant and properly secured, and a fine filter should be installed at the inlet.
5. What should be paid attention to in daily maintenance?
Regularly check the inlet filter, drain condensed water, listen for abnormal noises, and replace seals according to the frequency of use. A comprehensive inspection by a professional is recommended annually.
